WO2003017051A2 - Method and system for managing a mortgage-backed securities index - Google Patents

Method and system for managing a mortgage-backed securities index Download PDF

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Publication number
WO2003017051A2
WO2003017051A2 PCT/US2002/025813 US0225813W WO03017051A2 WO 2003017051 A2 WO2003017051 A2 WO 2003017051A2 US 0225813 W US0225813 W US 0225813W WO 03017051 A2 WO03017051 A2 WO 03017051A2
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mortgage
index
backed securities
day
month
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PCT/US2002/025813
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English (en)
French (fr)
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WO2003017051A3 (en
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David Rios
Matt Ruppel
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Credit Suisse First Boston
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Priority to CA002456827A priority Critical patent/CA2456827A1/en
Priority to AU2002323144A priority patent/AU2002323144A1/en
Priority to JP2003521898A priority patent/JP4244188B2/ja
Priority to EP02757106A priority patent/EP1425687A4/en
Publication of WO2003017051A2 publication Critical patent/WO2003017051A2/en
Publication of WO2003017051A3 publication Critical patent/WO2003017051A3/en

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q40/00Finance; Insurance; Tax strategies; Processing of corporate or income taxes
    • G06Q40/04Trading; Exchange, e.g. stocks, commodities, derivatives or currency exchange
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q40/00Finance; Insurance; Tax strategies; Processing of corporate or income taxes
    • G06Q40/03Credit; Loans; Processing thereof
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q40/00Finance; Insurance; Tax strategies; Processing of corporate or income taxes
    • G06Q40/06Asset management; Financial planning or analysis

Definitions

  • the invention generally relates to a method and system for generating an Index-type benchmark for a mortgage-backed securities (MBS) sector of the securities market.
  • an index is a device that measures changes in the prices of a basket of shares, and represents the changes using a single Fig..
  • the purpose is to give investors an easy way to see the general direction of shares in the index.
  • the FTSE 100 Index is calculated by taking a weighted average of the share prices of the largest 100 companies on the London Stock Exchange. Launched in 1984 with a base Fig. of 1 ,000, the FTSE is calculated continuously throughout the trading day.
  • an index is defined by a pre-determined universe of individual issues valued or weighted in proportion to their size within the whole universe of issues.
  • the Standard & Poor's 500 Index is an example of such an index and is based on the common stocks of the 500 largest corporations which trade on United States exchanges.
  • the weighting for each different security in the S & P 500 index is simply the market capitalization of that security expressed as a percentage of the total market capitalization taken across all the securities then in the index. Of course, these weights continually change as share prices move which, in turn, changes market capitalization both of each individual security in the index as well as that across the entire index.
  • Other indices, such as the Value Line index assign their own, e.g. equal, weightings to each security therein.
  • Capitalization weighting is the most common approach to equity indices and equity portfolios. Cap-weighted portfolios are easy to maintain because the rebalancing process takes care of itself.
  • An algorithm for rebalancing a capitalization weighted stock index is disclosed, for example, in U.S. Patent No. 6,061,663 (the '663 Patent).
  • the '663 Patent teaches a method and system for rebalancing an equity portfolio based on weighting characteristics of individual securities. Similar to other known equity indices, e.g. S&P 500 Index, in the '663 Patent the weighting characteristic of a particular security is based on the market capitalization of that security expressed as a percentage of the total market capitalization taken across all the securities then in the index.
  • the computer program disclosed in the '663 Patent includes instructions to classify stocks in the index into several categories by comparing their capitalization weight to a threshold level.
  • U.S. Patent No. 5,819,238 discloses a method for automatically modifying a financial portfolio having a pre-defined universe of securities, such as an index fund that tracks a given capitalization weighted index, through dynamic re- weighting of a position held in each such security.
  • a target weight is associated with each such security relative to others in the same portfolio in proportion to a non-constant function of current capitalization weights of the securities in the index.
  • relative weights may be calculated based on countries' relative GDPs or imports.
  • Indices are currently used in the industry as benchmarks allowing investors and portfolio managers to compare performance of one sector of the securities market to others. Indices are often used in order to create index funds, i.e., funds that purchase securities that mimic or represent a specific index, for example the Vanguard 500 Index Fund mimics the composition and, supposedly, performance of the S & P 500 stock index.
  • index funds i.e., funds that purchase securities that mimic or represent a specific index, for example the Vanguard 500 Index Fund mimics the composition and, supposedly, performance of the S & P 500 stock index.
  • Mortgage-Backed Securities are securities backed by mortgage loans, including pass- through securities, modified pass-through securities, mortgage-backed bonds, and mortgage pay-through securities.
  • MBS are created when mortgage loans are pooled and underwritten by eligible issuers. Commonly referred to as "pass-through" certificates, these MBS entitle an investor to an undivided interest in the underlying mortgage loan pool. Thus, an investor receives a pro rata share of the interest (net of servicing and guaranty fees) and/or principal on the underlying mortgage loans.
  • LB MBS Index MBS Index
  • GNMA also known as "Ginnie Mae”
  • FNMA also known as "Fannie Mae”
  • FHLMC also known as "Freddie Mac”
  • GNMA mortgage-backed pass-through securities
  • FNMA also known as "Fannie Mae”
  • FHLMC also known as "Freddie Mac”
  • a user In order to generate one of the LB MBS indices, a user must first select a set of securities that satisfy a number of subjective rules (for example, the total outstanding balance of each generic security must be at least $100 million), then price each issue within the index based on the provided "matrix pricing," calculate the returns of each individual security within the index and calculate the index return as a market- weighted average of individual security returns.
  • the weights of individual securities are subjectively assigned and are not related to the proportion of the total outstanding principal on a particular security and total outstanding principal for the selected pool.
  • mortgage-backed securities are traded in "to-be-announced" (TBA) transactions where the purchase price is settled at some future TBA date.
  • TBA to calculate an index's total return, TBA settle prices for each security have to be converted into same-day-settle prices. According to the LB MBS Index's published algorithm, this process involves complicated calculations which include adjustments for an unknown future cash flow.
  • the present invention is directed to a method and system for generating an MBS Index by objectively selecting securities from all available mortgage-backed securities, assigning a relative weight to each selected security, evaluating the MBS Index by calculating its total return and periodically rebalancing the Index.
  • a system and method for generating and managing an MBS Index are provided.
  • the system and method of the present invention perform a set of calculations during the second business week of the preceding month.
  • all outstanding mortgage-backed securities are considered. They are preferably aggregated into pools based on their coupon and original term (e.g. 15 and 30 years). If the total principal outstanding for any 30-year coupon represents more than 1.5% of the total, then this 30-year coupon will be included in the Index. Similarly, if the total principal outstanding on any 15- year coupon represents more than 0.4% of the total, then this 15-year coupon will be included in the Index.
  • the performance of the Index is measured by its total return.
  • the system and method of the invention calculate the total return of the generic Index in accordance with an algorithm which is provided herein.
  • the total return of the Index depends on a total return of each security included in the index weighted according to the relative weight assigned to such particular security.
  • the present invention provides a method of assigning relative weights, which represent relative proportions of different generic securities in the generic MBS Index, and covers the frequency of reweighing.
  • the system and method may be modified to produce the relative weights of the individual securities within Conventional, Government, 30-year, and 15-year indices.
  • Fig. 1 is a block diagram of the system 50 of the present invention.
  • Fig. 2 is a functional diagram of the discrete components and information flow within the system for generating and managing an MBS Index in accordance with the present invention
  • Fig. 3 is the table of The Bond Market Association MBS Notification and Settlement Dates from May 2001 to August 2001, the list was last updated on April 27, 2001;
  • Fig. 4 is a schematic flow chart of the steps to be performed in the method of the present invention.
  • Fig. 5 is a logic flow chart of the processing logic for the index composition determination
  • Fig. 6 is a logic flow chart of the processing logic for the relative weights calculation
  • Fig. 7 is a logic flow chart of the processing logic for the pay-down factor determination
  • Fig. 8 is a logic flow chart of the processing logic for the same-day-settle price conversion.
  • Fig. 9 is a logic flow chart of the processing logic for the determination of total return of the MBS Index.
  • a system and method for generating, evaluating and managing different Mortgage-Backed Securities Indices are provided.
  • the method of the invention is accomplished by a system, as shown in Figs. 1 and 2 (described further below), which may be implemented by a general purpose computer operating in accordance with the instructions provided by the system.
  • the system 50 is illustrated in the diagram of Fig. 1 and includes a central processing unit (CPU) 1 , memory comprising ROM 4, for permanently storing program instructions, operating parameters, or other data required for system operation, and RAM 5, for the temporary storage and manipulation of data during the operation of the system 50.
  • CPU central processing unit
  • the system further includes an input device 3 which may be a keyboard, a handwriting recognition device, a voice recognition device or any other known device for inputting data including any type of hardware or software suitable for inputting data from another computer system or the Internet.
  • the above described input devices are all designated in the diagram of Fig. 1 with a reference number 3.
  • the input device 3 inputs data, operational parameters and commands to the CPU 1 through an input/output interface 2.
  • Data is output from the CPU 1 through another input/output interface 6 to the output device 7 which may be a printer, a computer display, a modem, or any other known output device.
  • the system may comprise a plurality of discrete components which perform the functions of selecting mortgage-backed securities to be included in the Index, assigning relative weight to each selected security, calculating the total return of the Index, calculating the level of the Index and other functions in accordance with the present invention.
  • a single CPU performs these functions.
  • separate CPUs may be used or the CPU may be segregated to perform the described functions.
  • MBS indices implemented by Credit Suisse First Boston (“CSFB"), a global investment bank providing securities underwriting, sales and trading, investment banking, private equity, financial advisory and other related services.
  • MBS indices there are sixty four (64) different MBS indices currently developed by CSFB.
  • This application discloses the invention with regard to the generic MBS Index (i.e., TBA Mortgage Index), unless otherwise specified.
  • the algorithm may be modified to generate and manage different MBS indices. This disclosure provides examples of such possible modifications where appropriate. For example, individual weight-calculating formulas are provided for Conventional, Government, 30-year and 15-year indices.
  • Fig. 4 is a flow chart of the method of the present invention.
  • the method may be implemented by a general purpose computer operating in accordance with an algorithm 10 for generating, evaluating and rebalancing a generic MBS Index (i.e., TBA Mortgage Index).
  • a generic MBS Index i.e., TBA Mortgage Index
  • all outstanding mortgage-backed securities are considered in block 12, in order to generate a generic MBS Index.
  • These securities are either included or excluded from the Index based on their total principal outstanding.
  • Equations 1.1 and 1.2 describe the conditions for inclusion and elimination of MBS securities.
  • the relative weights are then assigned to each included security, in block 14, in accordance with Equation 1.3.
  • a total return for each pass-through present in the Index during this time interval is first determined, block 16. This total return of each generic pass-through is calculated in accordance with Equation 4.1. Using these total returns for all generic securities calculated in block 16, the total return of the Index can be determined next, at block 18, using one of the Equations 2.1, 2.2 or 2.3, depending on the length of the desired time interval.
  • each provided Index may also be characterized by its level.
  • the level of the Index is based on the total return of the Index over the life of the Index (or any other desired time interval) and is calculated in block 20 using Equations 6.2 and 6.3.
  • Each Index is then rebalanced in block 22, preferably on the last business day of each month, by repeating the above steps 12 through 20 (blocks 12 - 20 of Fig. 4).
  • Equations 1.1, 1.2 and 1.3 present the algorithm for including and excluding bonds in the TBA Mortgage Index as well as the method of assigning relative weights to the generic pass- throughs included in the Index.
  • this algorithm may be modified in the process of creating non-generic indices, for example, the Conventional, Government, 30-year, and 15-year indices.
  • other MBS indices may also be created based on the provided generic algorithm.
  • TBA-eligible pools i.e., pools of mortgage-backed securities eligible for "to-be-announced" transactions. TBA-eligible pools are defined by the Bond Market Association (also referred to in the present disclosure as PSA, i.e., Public Securities Association), and these definitions are incorporated herein by reference.
  • TBA-eligible pools will preferably include mortgage-backed securities issued by FNMA, GNMA I (i.e., modified pass-through mortgage-backed securities on which registered holders receive separate principal and interest payments on each of their certificates), GNMA II (i.e., modified pass-through mortgage-backed securities on which registered holders receive an aggregate principal and interest payment from a central paying agent on all of their Ginnie Mae II MBS), and/or FHLMC, all with fixed-rate coupons and original terms of 30 or 15 years.
  • These pools are preferably aggregated based solely on coupon and original term.
  • the original year term and the coupon value may be preprogrammed in the system or may be input into the system as operating parameters. Additional information related to these MBS may also be preprogrammed or input into the system.
  • any 30-year coupon represents more than 1.5% of the total outstanding principal for all considered pools
  • that 30-year coupon will be included in the Index.
  • the total principal outstanding on any 15-year coupon represents more than 0.4% of the total outstanding principal for all considered pools
  • that 15-year coupon will be included in the Index.
  • 30-year coupons having value of 8.5% represent more than 1.5% of the total principal outstanding
  • FNMA 8.5, GNMA 8.5 and FHLMC 8.5 are all included in the generic TBA Mortgage Index. If, collectively, they represent less than 1.5% of the total outstanding, then none of these generic securities is included in the Index.
  • the percentages (i.e., the 1.5% and 0.4% thresholds values) for each coupon term may be preprogrammed in the system or input into the system as operating parameters.
  • the Index may include only the top six 30-year coupons and the top six 15 -year coupons, as ranked by their outstanding principals.
  • the number of coupons to be included in the index may also be preprogrammed or input into the system.
  • the data regarding outstanding principal amounts may be continuously streamed into the system or input into the system when it becomes available.
  • the above calculations are preferably performed during the second full business week of each month, when the agencies' data becomes available, in order to determine which bonds to include in the Index as of the close of the last business day of that month. It should be noted that inclusion in one month does not guarantee inclusion in the next month.
  • the time for performing the above calculations i.e., the second full business week
  • the total principal outstanding in a TBA eligible pool issued by agency a with a coupon c and original term t as of the first of each month is referred to herein asp act , and, as noted above, is preferably calculated in the second week of that month for each fixed-rate agency pass through. Therefore, for each coupon and original term, the inclusion criterion x c l may be defined by the following equations:
  • the system determines the composition of the index based on the preprogrammed values, operating parameters and the agencies' input principal data in accordance with the above equation to perform step 12 of Fig. 4.
  • the relative weight of each generic pass-through may be assigned (step 14 of Fig.4).
  • the relative weights are based on the relation of the current outstanding principal of the considered generic pass-through to the total outstanding principal represented in the Index and are preferably expressed in percentage terms. These weights represent the relative proportions of different generic fixed-rate agency pass-throughs in the generic Index.
  • Equation 1.3 mathematically defines the weight of each generic pass-through in the generic TBA Mortgage Index as a function of agency, coupon, and original term as: i P a, c,
  • the relative weights are preferably calculated during the second week of each month, they preferably become effective as of the close of the last business day of the month in which the calculation took place.
  • the time for calculating the relative weights and the time they become effective may be preprogrammed in the system or input into the system as operating parameters. To ensure reliability of the data used in the disclosed calculations, the sources of all data pertaining to outstanding principals should be the agencies themselves. On the last business day of each month, a set of weights for each index is output or otherwise published.
  • the above algorithm for including and excluding generic pass-throughs and for calculating their relative weights within the generic MBS Index may be modified to produce the weights of the Conventional, Government, 30-year, and 15-year indices.
  • An operation parameter may be input into the system to signal this modification in the provided method.
  • For the Conventional Pass Through Index when computing the weights using Equation 1.3, all weights assigned to Ginnie Mae pass-throughs are set to 0 during the final step. Similarly, when computing the weights for the Ginnie Mae (i.e., "Government") Pass-Through Index using Equation 1.3, all weights assigned to non-Ginnie Mae pass-throughs are set to 0 during the final step.
  • one of the main characteristics of each of the provided indices is its total return.
  • the total return of each index may be defined as an average total return of the bonds represented in that index.
  • the total return is computed by compounding over a set of disjoint and complete subintervals of time.
  • representative portfolios may be used to calculate the total returns for the months of Oct. 14, 2000 to Oct. 31, 2000, of Oct. 31, 2000 to Nov. 30, 2000, and of Nov. 30, 2000 until Dec. 15, 2000.
  • the product of these three numbers is the Index total return from Oct. 14, 2000 to Dec. 15, 2000.
  • the total return from Oct. 14, 2000 until Oct. 31, 2000 is the total return of the representative portfolio from Sep. 29, 2000 to Oct. 31, 2000 minus the return from Sep. 29, 2000 to Oct. 13, 2000.
  • * (1 + TR k - TR + TR )- 1 (Eq . 2 . 2), where TR k is the total return of the Index for the month k. Or when k ⁇ n-l,
  • 77? is the total return of the Index from the close of the last business day of the month i - 1 to the close of the last business day of the month i. Both 77?, and 77?, are defined in Equations (3.1) and (3.2). Equations 2.1, 2.2 and 2.3 define the operations to be performed in step 18 of the flow chart of Fig. 4.
  • the total return of the Index is defined by the total return of a fixed representative portfolio.
  • To compute the return of a representative portfolio one has to calculate the cost of buying the portfolio, same-day settle on the earlier date; the gain from selling the portfolio, same-day settle on the later date; and the value of any pay downs earned.
  • Equation 4.1 77?/ is the total return of generic pass-through y over this time interval as will be shown in Equation 4.1, discussed with respect to step 16 of Fig.4.
  • Equation 3.1 may be rewritten for 7 ? ⁇ as: iplTR
  • the price of each pass-through is preferably the same-day settle price, measured on close of the last business day of month i-l (or k-l), and is denoted p ⁇ (o ⁇ p k ' or simply p t ). Its computation is described further below (see Equations 5.1 - 5.5). For any arbitrary business day t in any month /:
  • step 16 in order to calculate the total return of the Index, the total return of each generic pass-through has to be calculated first.
  • formulas for calculating the total return of each pass-through in the index for specific time periods are provided.
  • the total return calculations involve buying and selling securities for the same-day settle price, however, the only prices observable in the marketplace are for the standard PSA (i.e., TBA) settle prices. Consequently the standard formulas typically used in the industry are based on PSA settle prices.
  • the method of calculating the total return of each pass-through in accordance with the present invention uses formulas which are based on the same-day settle prices, not standard PSA settle prices. Therefore, a conversion algorithm is provided by the present invention, as more particularly described in connection with Equations 5.1 - 5.5.
  • /, the pay-down factor of the pass-through as best determined by day t.
  • Data for all of these terms is preferably input into the system.
  • Equation 4.3 The algorithm for computing f, is provided in Equation 4.3. Prices, rates, and coupons are preferably all considered as decimals, not percents. If t 2 is the last business day of month /, it can be written:
  • the pay down for month i is preferably determined by the actual loans represented in the pool during month i-l. Therefore, two separate pools with the same characteristics can have different total returns.
  • the Index represents generic pass-throughs, that is, pass-throughs representative of all pools of the same coupon, and original term, issued by the same agency.
  • the total return of a generic pass-through is a weighted average of all of the pass-throughs it represents.
  • the factor of the generic pass-through with coupon c, original term t, issued by agency a may be determined by the following algorithm.
  • First the working set is defined as all MBS pools issued by the agency a, of original term t, with fixed coupon c as of the first of month /.
  • the maximum WALA Weighted Average Loan Age
  • ⁇ pools : WALA ⁇ « cutoff as of the first of the month /+ 1 ⁇ .
  • WALA of a pool is unknown, it is estimated using CAGE. is the generic pay-down factor for the month .
  • Equation 4.3 creates a sequence of monthly pay-down factors for each generic pass-through.
  • the pay-down factor of a generic pass- through as best known by t is preferably denoted /, .
  • the value is preferably the latest factor that would be known as of the close of t .
  • f_ is known by t
  • the / is defined to be f_ .
  • the / will be defined as f_ 2 .
  • the advantage of the above definition of / is that it makes the Index independent of subjective prepayment models. Data related to each term found in Equation 4.3 is preferably input into the system so that the above calculations may be performed.
  • the provided formulas for calculating the total return of the Index is based on the same-day settle price, not standard PSA settle price.
  • the Bond Market Association announces the MBS settlement dates on which all purchasing transactions have to be settled.
  • the formula for calculating the total return of each generic pass-through is based on this TBA (or PSA) price, the calculation will necessarily include some element of estimating future cash flows. Consequently, in accordance with the preferred embodiment of the present invention, the formulas for converting from standard PSA settle prices to same-day settle prices are provided.
  • standard PSA settle price is the market observed price.
  • Equations 5.1 - 5.5 provide formulas for converting the standard PSA settle price, 1 -month forward, to the same- day settle price. Data related to each term found in Equations 5.1 - 5.5 is preferably input into the system so that the above calculations may be performed.
  • Standard PSA settle assumes that, while the price is agreed upon today, no payment is made until sometime in the future. Same-day settle requires payment today. Therefore a PSA settle price includes some time value that must be discounted to convert to today's dollars.
  • pass-throughs begin paying principal and interest to the bondholder the month following settlement. Therefore, purchasing securities 1 -month forward standard PSA settle entitles the buyer to the pay down two months after the purchase day and not the pay down one month after the purchase date. For same-day settle the buyer is entitled to both of these pay downs.
  • r represents the discount funding rate
  • d 2 represents the number of days in between the purchase date and the standard PSA settle date 1 -month forward inclusive of the former and exclusive of the latter.
  • the rate is quoted as a decimal, e.g. a rate of 6.5 percent is written as 0.065.
  • the value of the pay down and interest for the month following the purchases date is the sum of the two payments ( discounted ),
  • d 3 represents the number of days between the purchase date and the 25th of the next month (for FNMA MBS ) or the I5th of the next month (for GNMA or FHLMC MBS ), inclusive of the former and exclusive of the latter.
  • r is a 1 -month BB A LIBOR (British Bankers Association London Interbank Offered Rate) at the close of date t, if t is the last business day of the month. If not, then r is 1 -month BBA LIBOR at the close of the last business day of month i-l.
  • d is the number of days between the first of month /+1 and the standard PSA settlement date in month i+l inclusive of the later and exclusive of the former.
  • the number of days between t and the standard PSA settlement date of month i+l inclusive of the former and exclusive of the latter is shown in the (5.4) as d 2 .
  • d 3 is the number of days between the 25th of month i+l and t inclusive of the former and exclusive of the latter.
  • d 3 is the number of days between the 15 th of the month i+l and date t, inclusive of the former and exclusive of the latter.
  • the values ?, , r, , and c are often quoted as percents, however, in (5.4) they are all decimals.
  • the source of 1 -month BBA LIBOR is Reuters, and is defined in BRITISH BANKERS' ASSOCIATION (2000) Libor Official Definition (incorporated herein by reference).
  • the BBA LIBOR and its definition may also be found at www.BBA.ORG.UK.
  • the source of the PSA settlement dates is The Bond Market Association and may be obtained from www.bondmarket.com, as shown for example in Fig. 3.
  • each index may be characterized by its level.
  • the level of the Index is defined by Equations 6.2 and 6.3 and is calculated in step 20 in Fig.4. It should be noted that level determination is not a required step of the present invention, and any other tool known in the art may be used with the provided MBS Index to evaluate its performance.
  • the starting date of the index is input into the system.
  • Equation 6.2 sets a starting level for this chosen starting date.
  • Equation 6.3 sets the percent level change between two days to be the total return of the Index between those two days. The total return of the Index is determined from the Equations 2.1, 2.2 or 2.3 above.
  • the level is a useful tool for evaluating an investment in the Index. Assuming monthly reinvestment in the Index, a cash investment of $X on the date t 1 will show either a profit or a loss by a latter date t 2 such that
  • P t is the level of the Index on day t.
  • the investor's true total return will depend on how the monthly payments are reinvested.
  • a system 50 for generating and managing an MBS Index is provided to perform the above described method.
  • Fig. 2 is a functional block diagram of an embodiment of the invention showing discrete components and information flow within the system 50.
  • system 50 preferably comprises a market data input device 26 (which may include an input/output interface 2 and input device 3, as shown in Fig. 1) for imputing necessary data related to outstanding mortgage-backed securities. Such data will include original term, coupon value, issuing agency, and outstanding principal on each outstanding mortgage-backed security.
  • Additional data inputs into the system 50 through the market data input 26 preferably include TBA settle prices, PSA settle dates and BBA LIBOR rates.
  • the input data received by the system from the input 26 is preferably classified in the classification processor 28.
  • the classification processor 28 which may be part of the CPU 1 shown in Fig. 1 , classifies all outstanding mortgage-backed securities in accordance with their original term, coupon value, and issuing agency. Classified securities are then aggregated into pools in accordance with their coupon and original term. The data and composition of all aggregated pools are then outputted from the classification processor into the central hub 24. As will be obvious to one of ordinary skill in the art, it is not necessary to include the central hub 24 into the system 50, and all described data transfers may be accomplished by directly connecting the discrete components of the system to each other. Input processors 28-42 of Fig. 2 may all be included in the single CPU 1 of Fig. 1.
  • the central hub 24 is preferably connected to an Index database 44 for storing data related to the provided MBS Index.
  • the Index database 44 may also store some tentative data, for example results of intra-step calculations, for future use.
  • the Index database may comprise several components, for example, RAM 5, shown in Fig. 1, a hard drive, a connected zip drive or a separate database server.
  • Output of every discrete component of the system 50 is preferably input into the central hub 24 and is further transmitted into the Index database 44.
  • Selected data stored in the Index database may be outputted to the output terminal 46.
  • the output terminal may include or be connected to the input/output interface 6 and the output device 7 as shown in Fig. 1.
  • Logic conceptually begins at block 301 and proceeds to block 302 where the aggregated pools and their associated data are entered into the composition processor.
  • a total outstanding principal for all aggregated pools is calculated.
  • One of the aggregated pools is selected for determination in block 304, and its putstanding principal is calculated in block 305.
  • the results of calculations of blocks 303 and 305 are input into block 306, where the inclusion criterion is determined in accordance with Equation 1.2.
  • the processor will determine the original term of the pool selected in 304 and, if the original term is 30-years (360 months), the inclusion criterion x c is compared to 1.5% at logic block 308. If however, the original term is 15 years (180 months) the inclusion criterion is compared to 0.4% at logic block 309. Aggregated pools having a 30- year original term are included in the Index at block 311 if the expression at block 308 is determined to be true. Aggregated pools having a 15-year original term are included in the Index at block 311 if the expression at block 309 is determined to be true. Otherwise, the pool is discarded at block 310.
  • the Index composition i.e., a list of all selected securities, is outputted into the central hub 24 and stored in the Index database 44, preferably with a month for which this Index was generated. As explained above, the composition of the Index will remain constant for one month. On the last business day of the next month the index composition processor is activated again and the selection process repeats.
  • Relative weights of each mortgage-backed security included in the Index are preferably calculated in the weights processor 32, Fig. 2.
  • the logic flow chart of the processing logic for the weights determination is shown in Fig. 6.
  • Logic conceptually begins at block 321 and proceeds to input block 322 where the inclusion criteria from block 306 and total outstanding principal on each selected security from market data input 26 of Fig. 2 are entered into the weights processor.
  • Total outstanding principal on all securities included in the Index is calculated at block 323, and the relative weight of each security is determined at block 324 using the Equation 1.3.
  • the relative weights are outputted from the weights processor 32, input into the central hub 24 and preferably stored in the Index database 44.
  • the system 50 is also provided with a date calculator and internal calendar 38.
  • a date calculator and internal calendar 38 As described above in connection with steps 16 and 18 of the algorithm 10, shown in Fig. 4, various dates and differences between them are used to calculate factor/, total return of each pass-through, total return of the Index, same-day-settle price and level of the Index. As would be obvious to one of ordinary skill in the art, these dates may be observed in the market and if the differences between them are required for further calculations, these differences can be determined within the individual processors, where these further calculations are to be performed. However, for purposes of efficiency it is preferred that the date on which each calculation is performed (also referred to in this disclosure as "the current date” and "t 2 ”) is determined by the provided internal calendar.
  • Pay-down factor/ for each month is calculated in the factor processor 40 of Fig. 2.
  • the logic flow chart of the processing logic for the factor determination is shown in Fig. 7.
  • Logic conceptually begins at block 401 and proceeds to input block 402 where the total outstanding principal on each selected security is entered into the factor processor.
  • the outstanding principal data may be input at 26 of Fig. 2 or may already be stored in the Index database 44 during performance of prior operations (e.g. steps 12 and 14 of Fig.4).
  • Principal outstanding of all securities within pool ct for month i is calculated at block 403, and principal outstanding of all securities within pool a for month i+l is calculated at block 404.
  • These outstanding principals for two consecutive months are then input into the factor calculator 405, where the pay-down factor is determined in accordance with Equation 4.3.
  • the pay-down factor/ is outputted from the factor processor 40, input into the central hub 24 and stored in the Index database 44.
  • Same-day-settle price for each security is calculated in the same-day-settle price processor 34 of Fig. 2.
  • the logic flow chart of the processing logic for the determination of these prices is shown in Fig. 8.
  • Logic conceptually begins at block 341 and proceeds to input block 342 where the 1 -month BBA LIBOR, TBA price, and coupon value of each security included in the Index is entered into the same-day-settle price processor from the market data input 26 of Fig. 2. Additionally, date differences d d 2 and d ⁇ are entered into the input block 342 from the date calculator 38.
  • the latest known pay-down factor/ is selected from the Index database 44 where all pay-down factors are stored.
  • the same-day-settle price calculator 34 determines this price in accordance with Equation 5.4 in block 344.
  • the same-day-settle price is outputted from its processor 34, input into the central hub 24 and stored in the Index database 44. The above described algorithm is repeated for every security included into the Index in the month of calculations.
  • Total return of the Index from the date t ⁇ of month A: to date t 2 of month n is calculated in the total return processor 42 of Fig. 2.
  • the logic flow chart of the processing logic for the total return determination is shown in Fig. 9.
  • Logic conceptually begins at block 421 and proceeds to input block 422 where all necessary dates and differences between them are entered from block 38, coupon values and BBA LIBOR rates are entered from input 26 (or from the Index database 44 if these rates were previously stored there), same-day-settle prices are either entered from block 34 or retrieved from the database 44, the latest known pay- down factor is retrieved from the database 44, and the relative weights are either entered from block 32 or retrieved from the database 44.
  • Total return of each individual pass-through in the Index is calculated at block 423 in accordance with Equation 4.1.
  • Total returns of the Index for individual months are either calculated at block 424 in accordance with Equation 3.1 or retrieved from the database 44 if available, and total returns of the Index from the first of the month until a desired date (e.g. t] or t 2 ) within that month are calculated at block 425 in accordance with Equation 3.2. These calculated total returns are then input into the logic block 426.
  • Total returns for individual months are preferably also outputted for storage in the database 44 so that they can be later retrieved from the database without repeating the above calculations.
  • the processor will determine the difference between the months A: and n.
  • the output of blocks 427, 429 and 430 is preferably input into the database 44 for storage. Additionally, in accordance with the preferred embodiment, a month- to-day total return of the Index is outputted onto the output terminal 46 as a benchmark measuring the performance of the provided MBS Index.
  • System 50 is further provided with a level processor 36 where the level of the Index is determined in accordance with Equation 6.3.
  • the starting level of the Index is preferably arbitrarily assigned, stored in the database 44 and retrieved for calculations by the level processor 36 when necessary.
  • the total return for the life of the index may be calculated in the total return processor 42 and input into the level processor 36.
  • the resulting level of the Index is input into the central hub 24 and stored in the Index database 44.
  • a daily level of the Index is outputted onto the output terminal 46 as a benchmark measuring the performance of the provided MBS Index. Any other variable stored in the Index database 44 may also be displayed on the output terminal 46 if desired.
  • MBS Indices provided in accordance with the present invention may be used as a benchmark for objectively and accurately measuring the performance of the MBS sector of the market.
  • the indices will preferably be published, or otherwise made available, on a monthly basis.
  • the method provided by the present invention for generating MBS indices may be used by portfolio managers for creating index funds mirroring or reflecting the provided MBS indices.
  • the algorithm may be encoded into a computer program and distributed to users on a CD-ROM or another readable storage device.
  • this MBS index-generating program may be stored on a web server or an enterprise server and streamed, downloaded or otherwise provided to interested users on an as-needed basis. Since the composition of each index is preferably held constant throughout a month, fund managers avoid the need to match the provided benchmark's moves on a daily basis. Additionally, the provided system and method allow users to easily and automatically rebalance the index at or near the end of the month.

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PCT/US2002/025813 2001-08-16 2002-08-15 Method and system for managing a mortgage-backed securities index WO2003017051A2 (en)

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AU2002323144A AU2002323144A1 (en) 2001-08-16 2002-08-15 Method and system for managing a mortgage-backed securities index
JP2003521898A JP4244188B2 (ja) 2001-08-16 2002-08-15 モーゲージ証券インデックスを管理する方法およびシステム
EP02757106A EP1425687A4 (en) 2001-08-16 2002-08-15 METHOD AND SYSTEM FOR MANAGING A MORTGAGE INDEX BASED ON MORTGAGE

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